I have the injection set to begin at just under 3000 rpm at full throttle - when set this way you will not use any fluid when cruising on the highway or when accelerating moderately. The flow increases with air mass so it starts at ~ 100 ml/min but increases up to ~ 325 ml/min max with the nozzle I have installed now. This is typically good for up to ~ 350hp at the wheels, then you need to either go up to a larger nozzle or use a two stage system with a second nozzle.
Thanks for the comments Patrick
I have not actually played with pre-turbo injection on any applications - my main concerns would be condensation building up in the intercooler and the water droplets eroding the compressor wheel spinning at 200K+ RPM, but I may have to try it sometime to see for myself. There are more advanced controller options to add additional nozzles, but I would only go that route if I felt it was necessary in order to keep the system as simple to install and tune as possible. My main focus for this application is ease of use for individuals to install it that would otherwise be intimidated by the complexity of a methanol/water injection system. It would be very easy for me to add a 1/8" NPT bung to the intake pipe after the MAF sensor to inject methanol/water if you wanted to go that route though ;)In my experience, the best results can be achieved when the volume of methanol/water injected roughly corresponds with the power output. Too much injection results in quenching/misfires, too little injection and you do not have the octane and cooling you desire. Based on this, you typically want to inject much more methanol/water when you are making 400 hp compared to when you only making 200hp. On a turbocharged application with torque/boost management we often see peak boost at low engine speeds and boost that trails off at the highest power output, so if you were injecting following the boost curve your injection volume would be less at peak power at 5800 rpm compared to the point where you have peak boost/torque down at 3000 - 4000 rpm.
I am using a Stage 2 controller - these can be configured to use either a 0-5V output reference or a frequency output reference. MAF and MAP are entirely different - MAP is manifold pressure, MAF is mass airflow. Your 2.3T does not come with a MAF and using the MAP (manifold pressure) has similar limitations to using boost pressure. The only difference is MAP is measured after the throttle body. There are different types of MAF sensors - some have 0-5V output and some use frequency output. The Stage 2 controller can be configured to use either.
Yes & no...:shrug: I think I just need to call to get better informed
I've done a bit of reading up on it lately and yes you can go below ambient. Higher percentages of meth should lower it more but I haven't found an absolute consensus on the ratio that should be used. Most people still agree 50/50 is best overall.
Good question. Since I'm about to run preturbo water/meth AND have a FR IC I'm betting on the double cooling measures having a compound impact for the better. Plus less flow constriction from the stock IC
